The temperature increases the deeper you go. For earth, the hottest area of the mantle is just before you hit the core. Here it's around 4,000 °C (7,230 °F).
it is greater at c because c has the most amount of mass and where there is the most mass the material is greater.
point d
Point B
The temperature of the mantle is greater at Point B than Point A. The temperature of the mantle is determined by its depth which is greater at Point B than Point A. The deeper the mantle the hotter and more pressurized it is and so the temperature at Point B will be greater than at Point A.Temperature can also be affected by other factors such as the composition of the mantle and the presence of radioactive elements. In this case since both points are in the same area and have similar composition the temperature will be determined by the depth.To summarize the temperature of the mantle is greater at Point B than Point A because it is deeper and thus more pressurized and hot.
This is a point in the Earth's crust where hot upwellijng mantle material causes significant magma formation and melting to occur within the crust and upper mantle. This in turn causes hotspot volcanism at the surface.
The when it is inside the earth, the lava is called magma. It is composed of molten rock. It originates from the melting of rock in the mantle and the crust. How the material melts depends on the geologic setting. At divergent plate boundaries the crust becomes thinner, which reduces pressure on the mantle and lowers the melting point, causing some of it to melt. At subduction zones, volatile components such as water are introduced into the mantle, which also lowers the melting point. At hot spots, material rises from the hotter lower mantle to the upper mantle, and thus experiences lower pressure. The magma then rises through the crust to erupt from volcanoes. As the magma rises it sometimes melts some of the crust. Since some of the original magma solidifies this does not increase the total amount of magma but it is important in that it alters the magma's composition and thus its behavior.
Simply put, it is easier to break any length of uniform material in the middle third than at the ends. The greater the distance from the end point of the material to the potential fracture point, the greater torque that is able to be applied. So it takes less force to apply the necessary torque to fracture the bone in the middle third than it does near the ends.
A reamer is a tool, not a material. The melting point would depend on what material the reamer is made of.
at point A
The temperature of the mantle is greater at Point B than Point A. The temperature of the mantle is determined by its depth which is greater at Point B than Point A. The deeper the mantle the hotter and more pressurized it is and so the temperature at Point B will be greater than at Point A.Temperature can also be affected by other factors such as the composition of the mantle and the presence of radioactive elements. In this case since both points are in the same area and have similar composition the temperature will be determined by the depth.To summarize the temperature of the mantle is greater at Point B than Point A because it is deeper and thus more pressurized and hot.
the density will be greater at point B because my mommy says
The Earths mantle is the viscous layer between the core and the crust. It is hot because of heat from the core, and part-liquid because it is composed of material with a moderate melting point. This mantle is the source of the volcanic material. Silica is a major component.
It depends on the material and the location of points a and b.
Either the loss of confining pressure causing the melting point of the material to drop below the in-situ temperature or due to the presence of volatiles which enter the mantle where subduction occurs and also lower the melting point of the material.
is the temperature if the stiffer mantle above or below its melting point
This is a point in the Earth's crust where hot upwellijng mantle material causes significant magma formation and melting to occur within the crust and upper mantle. This in turn causes hotspot volcanism at the surface.
is the temperature if the stiffer mantle above or below its melting point
is the temperature if the stiffer mantle above or below its melting point
Mantle or Core but I think its the mantle
Hafnium-tantalum carbide is the most refractory material known today with a melting point of3 942 0C.